Cooperative synchronous control system for plurality of power utilization modules
Abstract
The present invention relates to the technical field of lamp mirrors, in particular to a cooperative synchronous control system for a plurality of power utilization modules, including the plurality of power utilization modules. The working mode is: B. when any power utilization module generates a control instruction, controlling, by a main controller of the power utilization module, the power utilization module according to the instruction to perform a related action, and transmitting the instruction through a wireless transmitter to the outside; and C. receiving, by other power utilization modules, the instruction respectively through a wireless receiver, analyzing the instruction by the main controller, and performing a related control action. A control group is formed by the plurality of power utilization modules, and any power utilization module can generate the control instruction to control all the power utilization modules, thereby flexibly realizing the cooperative synchronous work and simplifying control.
Claims
exact text as granted — not AI-modifiedWhat is claimed is:
1. A cooperative synchronous control system for a plurality of power utilization modules, comprising the plurality of power utilization modules, wherein the power utilization modules are intelligent lamp mirrors or mirror cabinets; each of the power utilization modules comprises a main controller, power utilization blocks in signal connection with the main controller, a wireless receiver and a wireless transmitter; a driving block is configured to control the on and off of the power utilization blocks and adjusting the brightness of the power utilization blocks; and
the working mode of the cooperative synchronous control system is as follows:
A. generating, by at least one of the power utilization modules, a group request, and receiving the group request by other power utilization modules, so that at least two of the power utilization modules form a control group;
B. when any one of the power utilization modules generates a control instruction, controlling, by a main controller of the power utilization module, the power utilization module according to the instruction to perform a related action, and transmitting the control instruction through a wireless transmitter to the outside at the same time; and
C. receiving, by other power utilization modules, the control instruction respectively through a wireless receiver, analyzing the instruction by the main controller, and performing a related control action;
wherein the power utilization block comprises a lighting module and a demisting module; the lighting module is used for lighting; the main controller is further connected to a humidity sensor and a touch module; and the demisting module is configured to demist a mirror surface of the power utilization module, specifically comprising:
S1. sensing a humidity of the mirror surface of the power utilization module by the humidity sensor, and in a case that the humidity of the mirror surface of the power utilization module is greater than a preset value, performing Step S2;
S2. controlling, by the main controller, the demisting module to turn on, and heating and demisting the mirror surface of the power utilization module by the demisting module; and
S3. generating a demisting instruction by the main controller, and transmitting the demisting instruction by the wireless transmitter, so that the other power utilization modules in the control group turn on their respective demisting modules.
2. The cooperative synchronous control system for a plurality of power utilization modules according to claim 1 , wherein Step B specifically comprises:
B1. receiving, by the power utilization module, an action according to an input signal, and generating a control instruction;
B2. controlling, by a main controller of the power utilization module receiving the signal, the power utilization block according to the control instruction through the driving module to perform a related action; and
B3. transmitting the control instruction by one of the following two modes:
encrypting, by the main controller of the power utilization module receiving the signal, the control instruction, and then transmitting the control instruction locally by the wireless transmitter; and
using a specific frequency band of the control group by the main controller of the power utilization module receiving the signal to perform local transmission through the wireless transmitter; and
Step C specifically comprises:
C1. receiving, by other power utilization modules in the control group, an encrypted control instruction respectively through the wireless receiver;
C2. decrypting, by other power utilization modules in the control group, the control instruction respectively through the main controller; in a case that the decryption is successful, performing a related action according to the control instruction and then performing Step C3; in a case that the decryption fails, skipping receiving the control instruction;
C3. transmitting, by other power utilization modules in the control group, a successful execution signal respectively through the wireless transmitter, and receiving the signal by the power utilization module sending the encrypted control instruction; and
C4. determining, by the power utilization module sending the encrypted instruction, according to the received successful execution instruction, whether all the power utilization modules of the control group execute the instruction successfully; in a case that all the power utilization modules of the control group execute the instruction successfully, stopping transmitting the control instruction; and in a case of determining that not all the power utilization modules execute the instruction successfully within time t, warning by the power utilization module sending the encrypted instruction,
t being a positive real number.
3. The cooperative synchronous control system for a plurality of power utilization modules according to claim 2 , wherein in Step C2, after other power utilization modules in the control group are decrypted and the related action is performed according to the control instruction, in addition to performing Step C3, the following actions are performed:
C3′. transmitting, by other power utilization modules in the control group, the encrypted control instruction through the wireless transmitter, so that other power utilization modules in a wider range are capable of receiving the encrypted control instruction; and
in a case that any one of the power utilization modules receives the successful execution signal, transmitting the successful execution signal by the power utilization module so as to ensure that the power utilization module encrypting the instruction receives the successful execution signal.
4. The cooperative synchronous control system for a plurality of power utilization modules according to claim 2 , between Step B2 and Step B3, further comprising:
determining whether the control instruction is executed by the power utilization module or the group, skipping performing Step B3 in a case that the control instruction is executed by the power utilization module, and performing Step B3 in a case that the control instruction is performed by the group.
5. The cooperative synchronous control system for a plurality of power utilization modules according to claim 1 , wherein in a case that any one of the power utilization modules wants to quit the control group, performing the following steps:
inputting an exit instruction through administrator permissions;
encrypting the exit instruction by the main controller, and then transmitting the exit instruction by the wireless transmitter to other power utilization modules of the control group;
after other power utilization modules of the control group receive and decrypt the exit instruction, deleting identity information of the power utilization module quitting the control group stored by the main controller; and
deleting an encryption rule for the power utilization module quitting the group.
6. The cooperative synchronous control system for a plurality of power utilization modules according to claim 1 , wherein the cooperative synchronous control system controls different power utilization modules to perform lighting with different brightness, specifically comprising:
setting the serial number for each power utilization module joining the control group according to an established order;
selecting a preset lighting mode for execution; and
according to the serial number of the corresponding power utilization module, performing lighting by the main controller according to a preset brightness,
wherein the order of each power utilization module is set according to the main controller of each power utilization module, is transmitted to other individuals by the wireless transmitter of each power utilization module, and is stored by the main controller of each power utilization module.
7. The cooperative synchronous control system for a plurality of power utilization modules according to claim 6 , wherein the lighting mode is input into the control group by the following ways:
performing wired connection between a terminal and any power utilization module in the control group;
inputting the lighting mode into the main controller of the power utilization module by the terminal; and
transmitting, by the main controller of the power utilization module, the lighting mode to all the power utilization modules in the control group through the wireless transmitter.
8. The cooperative synchronous control system for a plurality of power utilization modules according to claim 7 , wherein the inputting the lighting mode into the main controller of the power utilization module by the terminal specifically comprises:
transmitting, by the terminal, the lighting mode completed in advance to the main controller of the power utilization module;
inputting a lighting mode pre-execution instruction through the terminal or the touch module; and
comparing, by the main controller of the power utilization module, the number n of the power utilization modules in the control group with the number m of the power utilization modules required to execute the lighting mode, transmitting the lighting mode to other power utilization modules in the control group in a case that n≥m, and warning the terminal or giving an alarm in a case that n<m.Cited by (0)
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